Omega type ornamental chain and process for making the chain

ABSTRACT

There is provided an ornamental chain of the “Omega” type used for the production of necklaces, bracelets and other articles of jewelry. This chain has two faces having different colors and/or different workmanship corresponding to the two faces. The chain may be worn showing one or the other face. The disclosure also covers the process of production of the chain.

CROSS-REFERENCE TO RELATED APPLICATIONS

[0001] This is a Continuation of U.S. Ser. No. 09/988,904 filed Mar. 28, 2000.

FIELD OF THE INVENTION

[0002] The present invention relates to an “Omega” type ornamental chain and a process for making the chain.

BACKGROUND OF THE INVENTION

[0003] It is known that in the goldsmith's field an “Omega” chain is defined as a strip of a fabric having threads over which small rings are inserted. The threads are usually made of gold or other precious material. The small rings which are inserted on the strip of the fabric have a closed profile and a thin thickness, in more detail each ring is composed of a first lamina, usually in the shape of a “C”, which is welded to a second lamina which is flat and has the function of forming the closed section of the small ring. The small rings are formed by sawing a cylinder or a tube in order to obtain a plurality of identical elements.

[0004] The process to obtain the “Omega” product always provides a final pressing operation to which the chain is subjected, an operation which always defines a single surface of the product which is aesthetically satisfactory and offers along the entire extension always the same aesthetic properties. Specifically the surface aesthetically satisfactory which eventually may also be worked to achieve particular effects of style, is constituted by the entire surface which is turned towards the exterior while the concave surface is not visible and will be deposited on the skin of the woman who wears the jewel.

[0005] On the basis of what has been described it is easy to conclude that the “Omega” chains presently in commerce are characterized by a single and very precise aesthetic appearance so that, for instance, a woman in order to have the possibility of choice or combination with different types of clothing, must buy different types of jewels, for instance necklaces and bracelets.

SUMMARY OF THE INVENTION

[0006] An object of the present invention is to provide a particular conformation and/or configuration of the “Omega” chain described hereinabove capable of conferring characteristics of greater utility of the chain for the user.

[0007] This object is achieved by providing an “Omega” chain of the type with small rings, in which each one of the rings is constituted by two arcuate portions, with an angular opening less than 180 degree, identified in the following description with the generic term semi-small rings, the small rings being obtained by using two materials of different quality or composition, so that they may show surfaces of difference in color, brilliance and tonality.

[0008] A further object of the invention is to provide a process for the achievement of the chain of the invention, of the type which utilizes small rings made from a tube or a cylinder, which process utilizes such particular working phases that the process is novel with respect to the known processes and also suitable for the production of “Omega” chains which have qualities of compactness, flexibility and aesthetics substantially superior with respect to the similar known products.

[0009] In actual operation, the small rings are obtained starting with two laminae of material having different composition, which laminae are placed side by side one with respect to the other, according to their longitudinal direction and being made integral one with respect to the other, by means of a process of welding so as to constitute a bilamina which then is shaped so as to form a tubular or cylindrical product.

[0010] The tube is divided with radial cuts so as to form a plurality of small rings, which, being made with two different materials, may be defined “bicolors”.

[0011] The small rings are then inserted onto a center piece or core of fabric of precious material and the manufactured flexible product so obtained is subjected to a final pressing action to confer to the product some degree of rigidity and compactness while remaining flexible in order to allow the jewel to be shaped and to maintain the shape.

[0012] After the pressing operation one obtains a product suitable to make the necklaces called “double face”, that is the necklaces which have two surfaces with symmetrically counterposed faces and which have aesthetic characteristics different one from the other.

[0013] In addition, operations such as glazing, beating, incision, diamond edging, or similar operations may be carried out on one or both surfaces of the chain in order to improve more substantially the aesthetic appearance of the final product.

BRIEF DESCRIPTION OF THE DRAWINGS

[0014] The invention will be more clear by reference to the accompanying drawings which are provided as non-limiting example, of which:

[0015]FIG. 1 is an elevational view of a necklace made with an “Omega” chain of the present invention;

[0016]FIG. 2 shows a transversal cross-section taken along line II-II of FIG. 1;

[0017]FIG. 3 is a perspective view of the “bicolor” small ring used in the “double face” chains of this invention;

[0018]FIGS. 4A-4D show the phases of production of an “Omega” chain of the prior art;

[0019]FIG. 5 shows a transversal section of an “Omega” chain of the known type in the present state of the art taken along line V-V of FIG. 4D;

[0020]FIGS. 6-17 show the phases of the process used for achieving the chain of the invention as shown in FIG. 1.

DESCRIPTION OF THE INVENTION

[0021] As shown in FIGS. 1 to 3, the “Omega” chain of this invention constituted by a plurality of small rings (10), each one is constituted by two semi-small rings (10.1) and (10.2) with arcuate profiles, having an angular opening less than 180.degree., disposed symmetrically with respect to each other and integral along the two lateral borders (10.3).

[0022] All the small rings (10) are inserted and pressed on the internal center piece or core (20) which is a fabric of precious material.

[0023] The small rings (10) in addition are characterized by the fact that the two semi-small rings (10.1) and (10.2) are made of different material and/or offer their external surfaces (10.A) and (10.B) worked in a manner that they exhibit aesthetic properties which are different one from the other.

[0024] Consequently also the chain (1) when the small rings are inserted on the center piece of fabric (20) offer two faces aesthetically satisfactory but different one from the other and in this manner achieving the chains called “double face”.

[0025] By way of example, the possibility of achieving chains “Omega double face” is mentioned, with the combination white gold/yellow gold, simply utilizing rings (10) constituted by two integral small rings (10.1) and (10.2), one of them made from laminae of yellow gold and the other made from laminae of white gold (see FIG. 3).

[0026] For the purpose of clarifying to a greater extent the difference between the chain “Omega double face” of this invention and the prior art “Omega” chain, there are described, in succession, the two different processes, that is the prior art process (FIGS. 4 and 5) and the novel process which produces the chain of the invention, of FIG. 1 (FIGS. 6-15).

[0027] As shown in FIGS. 4A-4D, the prior art “Omega” is made starting from two lamina (3.A) and (3.B), which are shaped one arcuate and the other flat as seen in FIG. 4A, which are made integral to form the tubular element (3.C) as seen in FIG. 4B, which is then divided to form the small rings (30). These rings are inserted on the center piece or core of fabric (20) as seen in FIG. 4C.

[0028] With a successive operation of compression, not shown, the final chain (3) of FIG. 4D is obtained. This chain takes a shaped section as seen in FIG. 5 in a manner that only the upper surface (30.A) is visible and aesthetically worked.

[0029] As shown in FIG. 6 and following the chain “Omega double face” of the invention is made starting from two flat laminae (6A) and (6B) shown in FIG. 6, which are disposed close to each other and which are made integral between themselves (FIG. 7) due to an operation of fixed connection preferably welding with or without supply of material, with the laser or with other methods presently known to form a new lamina (7), essentially a bilamina constituted by two components different one from the other.

[0030] Consequently, lamina (7) is subjected to a rolling action which transforms the bilamina into a tubular or cylindrical element (8) (FIG. 8) and afterwards the two approached borders of the tubular element are made integral due to an operation of fixed connection, preferably welding, with or without a supply of material with a laser or other well known methods.

[0031] As shown in FIG. 8A the welding of the two borders causes the formation in the interior of tubular element of a protruding cordon (9) which is eliminated with the insertion in the tubular element of central piece (110) made of calibrated steel (FIG. 9) which is necessary to carry out the subsequent operation of drawing/calibration.

[0032] As seen in FIG. 10, in the passage through the drawing machine (11), the tubular element (8) with the center piece (110) in the interior is transformed into a new tubular element (12). This new tubular element moves to become in close contact with the internal core (20) so that it becomes calibrated in its internal diameter while eliminating in this manner the protruding cordon (9) (compare the detailed FIGS. 10A and 10B).

[0033] As shown in FIG. 10C., the invention provides that, on the calibrated tubular element (12) corresponding to the area of reciprocal approachment of the two approached border a longitudinal line/groove (13) is formed which is useful in the subsequent operation of drawing/shaping of the same tubular element.

[0034] As shown in FIG. 11, the line (13), preferably in the shape of a V, is obtained by adding to the drawing machine (11) an engraving tooth (14).

[0035] Subsequently the process of the present invention provides for the extraction of the central piece (110) from the calibrated tubular element (12), for instance, by resting the tubular element against plate (15) which has a hole (see FIG. 12).

[0036] Still subsequently, as shown in FIG. 13, the process involves the drawing/shaping which transforms the tubular element (12) which has a circular profile into the element (16) with an oval profile. Specifically, the oval profile of the new tubular element (16) must be disposed with the two arcuate profiles in a manner reciprocally symmetrical as shown in FIG. 13B, which is obtained only by inserting in a manner perfectly oriented the tubular element (12) in the drawing machine (17). This is ensured, as shown in FIG. 14, by aligning line (13), present in the tubular element (12) at the entry, to the reference cut (18) present in the body of the drawing machine (17).

[0037] Finally as shown by comparing FIG. 13.C and FIG. 13D, the line 13 with the operations of drawing and shaping, is eliminated so that the two borders approach each other perfectly with substantial aesthetic results.

[0038] Subsequently, as shown in FIG. 15, the tubular element (16) is subjected to the action of a radial cut to obtain the small rings (19) which subsequently are inserted on the central or core piece (20) (see FIG. 16).

[0039] The semiworked product thus obtained is subjected to a final pressing action as shown in FIG. 17, which transforms each ring (19) with an oval profile as shown in FIG. (17B) to the rings (10) with a convex and symmetrical profile (see FIG. 17A) and this also causes the profile of the chain “double face” of the invention described hereinabove and shown in FIG. 1.

[0040] Obviously a great number of combinations may be carried out by utilizing different dispositions and a number of two or more of approached laminae. In particular, rings of different color on the same face may also be used and on the same face glazed areas alternate with smooth areas may be used.

[0041] On the basis of the description and figures shown hereinabove the advantage to the user resulting from the utilization of the chain of this invention is evident because the user may utilize two ornamental elements which may have aesthetic conformations totally different while facing the expense of acquiring a single object. 

1. A reversible omega chain having a first side and a second side, the first side having a first decorative scheme and the second side having a second decorative scheme, the first and second decorative schemes being aesthetically different.
 2. The necklace of claim 1 wherein the first side is made of a first material and the second side is made of a second material.
 3. The necklace of claim 2 wherein the first material is white gold and the second material is yellow gold.
 4. The necklace of claim 2 wherein the first material and the second material are a different composition.
 5. The necklace of claim 2 wherein the first material and the second material are a different color.
 6. The necklace of claim 1 wherein the chain further comprises alternate rings of glazed and smooth faces.
 7. A method for making a reversible omega chain comprising the steps of: providing a first strip of a first material; providing a second strip of a second material; joining the first strip and the second strip together at one lengthwise side; rolling the joined strips to form a hollow tube; drawing the tube over a substantially oval shaping element to form a substantially oval tube; cutting the substantially oval tube radially at specific increments to provide a plurality of rings; inserting the rings onto a core; pressing the rings on the core to provide an omega chain.
 8. The method of claim 5 wherein the first material is yellow gold and the second material is white gold.
 9. The method of claim 5 further comprising the step of drawing the tube over a solid tubular element to remove a protruding cordon.
 10. The method of claim 6 wherein the solid tubular element is calibrated steel.
 11. The method of claim 5 wherein the joining step further comprises welding.
 12. The method of claim 5 wherein the core is a semi-precious metal fabric.
 13. The method of claim 5 wherein the omega chain cross-section is concave.
 14. The method of claim 5 wherein the inserting step further comprises inserting rings of alternating appearance so that every other ring has the same design.
 15. The method of claim 13 wherein the design is a glazed face.
 16. The method of claim 13 wherein the design is a smooth face.
 17. An omega chain comprising: a core; a plurality of convex rings over the core; wherein the rings are symmetrical and further comprise a first side and a second side, the first side providing a first decorative face for the chain and the second side providing a second decorative face for the chain.
 18. The omega chain of claim 17 wherein the first side is made of a first material and the second side is made of a second material, the first and second materials being different.
 19. The omega chain of claim 17 wherein the first material is white gold and the second material is yellow gold.
 20. The omega chain of claim 17 wherein the rings alternate between a glazed face and a smooth face.
 21. A process for making a two-sided necklace or bracelet, comprising providing a flexible core, and threading a plurality of pipe sections onto the flexible core, each pipe section having two different colors, the pipe sections being segments of a pipe formed in two phases, the first phase comprising: providing at least two differently colored precious metal bands; arranging the at least two precious metal bands in a side-by-side orientation; coupling adjacent sides of the at least two precious metal bands by welding to form a single multi-color band having at least two different colors; and the second phase comprising: bending the multi-color band to place free edges of the multi-color band adjacent each other; and longitudinally welding the adjacent free edges together to form a multi-color pipe, whereby the multi-color pipe displays one of the at least two different colors on each of at least two sides all along a length of the multi-color pipe.
 22. The process of claim 21, wherein the first phase further comprises feeding each of the at least two differently colored bands into a first machine, the first machine arranging the bands and having a welding torch for coupling the at least two differently colored bands.
 23. The process of claim 22, wherein the first phase further comprises pulling the single multi-color band from the first machine using extraction rollers.
 24. The process of claim 21, wherein bending the multi-color band comprises passing the multi-color band through a plurality of pairs of rollers having shaped profiles and arranged to progressively bend the multi-color band.
 25. The process of claim 21, further comprising orienting each of the pipe sections to display one color of the pipe section on the flexible core.
 26. A process for making an omega-double-face necklace or bracelet, comprising providing a flexible core, and threading a plurality of rings onto the flexible core, each ring having two different colors, the rings being segments of a tubular element formed in two phases, the first phase comprising: providing at least two differently colored precious metal laminaes; arranging the at least two precious metal laminaes in a side-by-side orientation; coupling adjacent sides of the at least two precious metal laminaes by welding to form a single multi-color laminae having at least two different colors; and the second phase comprising: bending the multi-color laminae to place free edges of the multi-color laminae adjacent each other; and longitudinally welding the adjacent free edges together to form a multi-color tubular element, whereby the multi-color tubular element displays one of the at least two different colors on each of at least two sides all along a length of the multi-color tubular element.
 27. The process of claim 26, wherein the first phase further comprises feeding each of the at least two differently colored laminaes into a first machine, the first machine arranging the laminaes and having a welding torch for coupling the at least two differently colored laminaes.
 28. The process of claim 26, wherein the first phase further comprises pulling the single multi-color laminae from the first machine using extraction rollers.
 29. The process of claim 26, wherein bending the multi-color laminae comprises passing the multi-color laminae through a plurality of pairs of rollers having shaped profiles and arranged to progressively bend the multi-color laminae.
 30. The process of claim 26, further comprising orienting each of the rings to display one color of the ring on the flexible core. 